use std::path::{Path, PathBuf}; use crate::tokenizer::{Token, TokenStream}; use crate::vm::{Value, Block, Op}; use crate::error::{Error, ErrorKind}; macro_rules! nextable_enum { ( $name:ident { $( $thing:ident ),* } ) => { #[derive(PartialEq, PartialOrd, Clone, Copy, Debug)] enum $name { $( $thing, )* } impl $name { pub fn next(&self) -> Self { *[$( $name::$thing, )*].iter() .find(|x| { x > &self }) .unwrap_or(self) } } }; } macro_rules! error { ($thing:expr, $msg:expr) => { $thing.error(ErrorKind::SyntaxError($thing.line(), $thing.peek()), Some(String::from($msg))) }; } macro_rules! expect { ($thing:expr, $exp:pat, $msg:expr) => { match $thing.peek() { $exp => { $thing.eat(); }, _ => error!($thing, $msg), } }; } nextable_enum!(Prec { No, Assert, Bool, Comp, Term, Factor }); struct Compiler { curr: usize, tokens: TokenStream, current_file: PathBuf, panic: bool, errors: Vec, } impl Compiler { pub fn new(current_file: &Path, tokens: TokenStream) -> Self { Self { curr: 0, tokens, current_file: PathBuf::from(current_file), panic: false, errors: vec![], } } fn clear_panic(&mut self) { if self.panic { self.panic = false; while match self.peek() { Token::EOF | Token::Newline => false, _ => true, } { self.eat(); } self.eat(); } } fn error(&mut self, kind: ErrorKind, message: Option) { if self.panic { return } self.panic = true; self.errors.push(Error { kind: kind, file: self.current_file.clone(), line: self.line(), message: message, }); } fn peek(&self) -> Token { if self.tokens.len() <= self.curr { crate::tokenizer::Token::EOF } else { self.tokens[self.curr].0.clone() } } fn eat(&mut self) -> Token { let t = self.peek(); self.curr += 1; t } fn precedence(&self, token: Token) -> Prec { match token { Token::Star | Token::Slash => Prec::Factor, Token::Minus | Token::Plus => Prec::Term, Token::EqualEqual | Token::Greater | Token::GreaterEqual | Token::Less | Token::LessEqual | Token::NotEqual => Prec::Comp, Token::And | Token::Or => Prec::Bool, Token::AssertEqual => Prec::Assert, _ => Prec::No, } } fn line(&self) -> usize { if self.curr < self.tokens.len() { self.tokens[self.curr].1 } else { self.tokens[self.tokens.len() - 1].1 } } fn prefix(&mut self, token: Token, block: &mut Block) -> bool { match token { Token::LeftParen => self.grouping(block), Token::Minus => self.unary(block), Token::Float(_) => self.value(block), Token::Int(_) => self.value(block), Token::Bool(_) => self.value(block), Token::Not => self.unary(block), _ => { return false; }, } return true; } fn infix(&mut self, token: Token, block: &mut Block) -> bool { match token { Token::Minus | Token::Plus | Token::Slash | Token::Star | Token::AssertEqual | Token::EqualEqual | Token::Greater | Token::GreaterEqual | Token::Less | Token::LessEqual | Token::NotEqual => self.binary(block), _ => { return false; }, } return true; } fn value(&mut self, block: &mut Block) { let value = match self.eat() { Token::Float(f) => { Value::Float(f) }, Token::Int(i) => { Value::Int(i) } Token::Bool(b) => { Value::Bool(b) } _ => { error!(self, "Cannot parse value."); Value::Bool(false) } }; block.add(Op::Constant(value), self.line()); } fn grouping(&mut self, block: &mut Block) { expect!(self, Token::LeftParen, "Expected '(' around expression."); self.expression(block); expect!(self, Token::RightParen, "Expected ')' around expression."); } fn unary(&mut self, block: &mut Block) { let op = match self.eat() { Token::Minus => Op::Neg, Token::Not => Op::Not, _ => { error!(self, "Invalid unary operator"); Op::Neg }, }; self.parse_precedence(block, Prec::Factor); block.add(op, self.line()); } fn binary(&mut self, block: &mut Block) { let op = self.eat(); self.parse_precedence(block, self.precedence(op.clone()).next()); let op: &[Op] = match op { Token::Plus => &[Op::Add], Token::Minus => &[Op::Sub], Token::Star => &[Op::Mul], Token::Slash => &[Op::Div], Token::AssertEqual => &[Op::AssertEqual], Token::EqualEqual => &[Op::Equal], Token::Less => &[Op::Less], Token::Greater => &[Op::Greater], Token::NotEqual => &[Op::Equal, Op::Not], Token::LessEqual => &[Op::Greater, Op::Not], Token::GreaterEqual => &[Op::Less, Op::Not], _ => { error!(self, "Illegal operator"); &[] } }; block.add_from(op, self.line()); } fn expression(&mut self, block: &mut Block) { self.parse_precedence(block, Prec::No); } fn parse_precedence(&mut self, block: &mut Block, precedence: Prec) { if !self.prefix(self.peek(), block) { error!(self, "Invalid expression."); } while precedence <= self.precedence(self.peek()) { if !self.infix(self.peek(), block) { break; } } } fn statement(&mut self, block: &mut Block) { self.clear_panic(); match self.peek() { Token::Print => { self.eat(); self.expression(block); block.add(Op::Print, self.line()); expect!(self, Token::Newline, "Expect newline after expression."); }, _ => { self.expression(block); block.add(Op::Pop, self.line()); expect!(self, Token::Newline, "Expect newline after expression."); } } } pub fn compile(&mut self, name: &str, file: &Path) -> Result> { let mut block = Block::new(name, file); while self.peek() != Token::EOF { self.statement(&mut block); } block.add(Op::Return, self.line()); if self.errors.is_empty() { Ok(block) } else { Err(self.errors.clone()) } } } pub fn compile(name: &str, file: &Path, tokens: TokenStream) -> Result> { Compiler::new(file, tokens).compile(name, file) }